MASTER OF SCIENCE IN TRANSPORTATION PROGRAM CORE SUBJECTS: 24 units, first semester 1.200 Transportation Systems Analysis: Performance and Optimization (12 units) A. Antunes, A. Odoni, C. Osorio 1.201 Transportation Systems Analysis: Demand and Economics (12 units) M. Ben-Akiva ADDITIONAL TRANSPORTATION COURSEWORK (at least three subjects, totaling at least 30 units): These subjects can provide either depth or breadth. Depth is provided in the following areas: Air Transportation Analysis and Planning Methods Logistics and Supply Chain Management Transportation Policy Transportation Management Urban Transportation Three subjects selected from any subset of the above areas will achieve breadth. At least one subject should address policy (see page 5) INFORMATION TECHNOLOGY: 1.264J Database, Internet, and Systems Integration Technologies (12 Units) G. Kocur or 1.001 Introduction to Computers and Engineering Problem Solving (9 Units) G. Kocur Requests for waivers of this requirement based on prior coursework must be submitted in writing MASTER S THESIS A research-based thesis on a topic of the student s choice, approved by the thesis supervisor. TOTAL NUMBER OF REQUIRED UNITS = 66 +THESIS 1
STRUCTURE OF MIT S MASTER OF SCIENCE IN TRANSPORTATION MST REQUIREMENTS The requirements for the 66-unit Master of Science in Transportation consist of (1) a core of two 12-unit subjects; (2) an individually designed program comprised of 3 subjects totaling at least 30 units; (3) an information technology requirement (either 1.264J or 1.001); and (4) a thesis. The Core The MST core consists of two 12-unit subjects which are taught in the fall semester: 1.200 Transportation Systems Analysis: Performance and Optimization (Antunes, A. Odoni, C. Osorio) 1.201 Transportation Systems Analysis: Demand and Economics (M. Ben-Akiva) The core reflects the interdisciplinary, systems nature of our educational approach. The Program The program requires each student to select three or more subjects which further their educational objectives in the field of transportation. For some students this will mean building their depth of understanding in a selected area of interest. Well-developed program areas including Air Transportation, Analysis and Planning Methods, Logistics and Supply Chain Management, Ocean Systems Management, Transportation Policy, Transportation Management, and Urban Transportation. For other students the program may emphasize breadth rather than depth in a single area. For all students at least one of the selected subjects should address policy. At least two of the designated subjects should be clearly focused on transportation, while the third can be in a field which supports transportation; for example, a subject covering methods that are used in transportation, drawn from fields such as economics, operations research, political science, management, and others. The Information Technology Requirement Graduates of the MST program are expected to have working knowledge of information technology since this is a pre-requisite to function as a transportation professional. The information technology requirement can be satisfied by taking 1.264J (Database, Internet and Systems Integration Technologies) or 1.001 (Introduction to Computers and Engineering Problem Solving). 1.264J is recommended for most students. Requests for waivers of this requirement based on prior coursework must be submitted in writing. Students must complete a research-based Master's thesis on a topic of their choice, approved by their thesis supervisor. 2
MST CORE SUBJECT DESCRIPTIONS 1.200 Transportation Systems Analysis: Performance and Optimization (Same subject as 11.544J, ESD.21J) Prerequisite: 1.010 and permission of instructor G (Fall) 3-1-8 H-LEVEL Grad Credit. Problem-motivated introduction to methods, models and tools for the analysis and design of transportation networks including their planning, operations and control. Capacity of critical elements of transportation networks. Traffic flows and deterministic and probabilistic delay models. Formulation of optimization models for planning and scheduling of freight, transit and airline systems, and their solution using software packages. User- and system-optimal traffic assignment. Control of traffic flows on highways, urban grids, and airspace. A. Antunes, A. R. Odoni, C. Osorio 1.201 Transportation Systems Analysis: Demand and Economics (Same subject as 11.545J, ESD.210J) Prerequisite: Permission of instructor G (Fall) 3-1-8 H-LEVEL Grad Credit. Introduces transportation systems analysis, stressing demand and economic aspects. Covers the key principles governing transportation planning, investment, operations and maintenance. Introduces the microeconomic concepts central to transportation systems. Economic theories of the firm, the consumer and the market, disaggregate and aggregate demand models, discrete choice analysis, cost models and production functions for passenger and freight demand, pricing theory and application to transportation systems including the theory and practice of congestion pricing, technological change, resource allocation, market structure and regulation in the transportation industry, and project evaluation for transportation systems. Applications include passenger and freight, urban public transportation, aviation and intelligent transportation systems. M. Ben-Akiva 3
TRANSPORTATION SUBJECTS LISTED BY AREA SUBJECT # TITLE (JOINT SUBJECT NUMBERS) Air Transportation: 16.71J The Airline Industry (1.232,15.054,ESD.217) 16.72 Air Traffic Control 16.75J Airline Management (1.234) 16.763J Air Transportation Operations Research (1.233J) 16.781J Planning and Design of Airport Systems (1.231, ESD.224) Analysis and Planning Methods: 1.202J Demand Modeling (ESD.212) 1.203J Logistical & Transportation Planning Methods (6.281, 15.073, 16.76, ESD.216) 1.204 Computer Modeling: From Human Mobility to Transportation Networks 1.205J Advanced Demand Modeling (ESD.213) 1.207 Computer Algorithms in Systems Engineering 1.208 Resilient Infrastructure Networks 1.254 Transport Modeling Course 15.082 Network Optimization (6.855, ESD.78) Logistics and Supply Chain Management: 1.203J Logistical & Transportation Planning Methods (6.281, 15.073, 16.76, ESD.216) 1.260J Logistics Systems (15.770, ESD.260) 1.261J Case Studies in Logistics and Supply Chain Management (15.771, ESD.261) 1.265J International Supply Chain Management (2.965J, 15.765, ESD.265) 1.270J Logistics and Supply Chain Management (ESD.273) Transportation Policy: 1.253J Transportation Policy and Environmental Limits (11.543, ESD.222) HUT 251 Transportation Policy and Planning (Kennedy School of Government, Harvard) ESD.132J Law, Technology, and Public Policy (15.655) ESD.133J Environmental Law, Policy, and Economics: Pollution Prevention and Control (1.811, 11.630) Transportation Management: 1.261J Case Studies in Logistics and Supply Chain Management (15.771, ESD.261) 1.270J Logistics and Supply Chain Management (ESD.273) 16.75J Airline Management (1.234) Urban Transportation: 1.202J Demand Modeling (ESD.212) 1.204 Computer Modeling: From Human Mobility to Transportation Networks 1.212J An Introduction to Intelligent Transportation Systems (ESD.221) 1.251J Comparative Land Use and Transportation (11.526J) 1.252J Urban Transportation Planning (11.540, ESD.225) 1.254 Transport Modeling Course 1.258J Public Transportation Systems (11.541, ESD.226) 1.283J Cities and Regions: Urban Economics and Public Policy (11.410, 14.573, ESD.191) 11.526J Comparative Land Use and Transportation Planning (1.251) 4
11.527 Advanced Seminar in Transportation Finance Policy Requirement There are three types of subjects which satisfy the program policy requirement. I. Transportation policy subjects: 1.251J/11.526J Comparative Land Use and Transportation Planning 1.252J/11.540J/ESD.225J Urban Transportation Planning (Salvucci, Murga) 1.253J/11.543J/ESD.222J Transportation Policy and Environmental Limits (Coughlin, Salvucci) HUT 251 (Gomez-Ibáñez s subject at Harvard s Kennedy School) II. Transportation subjects with substantial policy content (nominally half): 16.71 The Airline Industry (Belobaba, et al) 11.526 Comparative Land-Use and Transportation Planning (Zegras) III. Policy subjects with modest or no transportation content: ESD.10 Introduction to Technology and Policy (Weigel) ESD.103/17.310/STS.482 Science, Technology and Public Policy (Oye) ESD.128J/12.848/15.023 Global Climate Change: Economics, Science, and Policy (Jacoby, Prinn) ESD.132/15.655 Law, Technology, and Public Policy (Ashford, Caldart) 11.232 The Field of Public Policy (Rein) 11.255 Negotiations and Dispute Resolution In the Public Sector (Susskind) 11.265 The Comparative Politics of Urban Policy (Davis, Thompson) 11.366/1.817 Planning, Participation and Consensus Building for Sustainable Development (Fairman) 11.481/1.284/ESD192 Analyzing and Accounting for Regional Economic Change (Polenske) 11.482/1.285/ESD.193 Regional Socioeconomic Impact Analyses and Modeling (Polenske) 11.528/ESD.229 Urban Spatial Structure, Transportation and Telecommunications I (Staff) 11.529 Urban Spatial Structure, Transportation and Telecommunications II (Staff) 5